Mirrors Laser Flash Game
Today I’m sharing one of our favorite science activities for kids- exploring reflections in mirrors! This is super easy to setup and children are always so intrigued with their discoveries! Are you following our Pinterest board?Science Experiments for Kids: Reflections in MirrorsI am a huge fan of science experiments for kids! (We have tons of fun on Buggy and Buddy!) I love how science explorations build on the natural curiosity children have about the world around them.
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Often these science activities lead to many more questions and discoveries. That’s exactly what happened when Lucy began exploring reflections in mirrors! (This post contains affiliate links.) Materials for Mirror Reflection Science. At least 2 mirrors (Preferably one on a wall and one you can hold). Some words and letters to study in the mirror. Pencil and paperProcedure for Mirror Reflection Science1.
Mirrors Laser Flash Game Pc
Start by exploring what happens with two mirrors facing each other. We had one mirror propped up against the wall, and Lucy held the other mirror in front of her. She was so excited, “Look at all my reflections!
Why’s it doing that?! I just keep seeing myself over and over!”. We talked about why we thought that might be happening. (Remember, my goal is promote critical thinking and predictions, not necessarily to get the correct answer.) Lucy said her prediction was that her reflection kept bouncing back and forth. (In case you’re wondering: You see yourself in a mirror because light bounces off you, hits the mirror, and then reflects back into your eyes. When you add another mirror into the equation, light bounces off one mirror and hits another mirror so you’re seeing a reflection of a reflection.
Because the two mirrors are facing each other, you’re getting a reflection of a reflection of a reflection etc.)2. Hold up some letters or words in front of one mirror and see what happens. I had thought playing with the two mirrors would be the extent of Lucy’s mirror exploration. But, at one point during the experiment, she noticed some letters in one of the mirrors, “Why are those letters backwards?” That led to a whole other set of discoveries and predictions!Let your child build off their own discoveries. I’m going to outline below where Lucy’s questions led her. You’re child’s path of discovery may be very different!. Lucy decided to write the word ‘love’ on a piece of paper and hold it in front of the mirror to see what happened. “It’s backwards!
I wonder what will happen if I write ‘love’ backwards on my paper?. Lucy got a new piece of paper and reversed the letters, writing “e-v-o-l”. “They’re still backwards! But, not all of them.
Look at the ‘o’!” (I love how she thought maybe the whole word was reversed rather than the letters being flipped!). She then decided to write out the whole alphabet to see how every letter looked in the mirror. As she was doing this, she’d jot down letters on a separate piece of paper that looked the same in the reflection. I asked her if she remembered when we during our previous nature walk? Maybe symmetry has something to do with this? I provided her with a little mirror we had used in a previous investigation on symmetry.
She tested out all the letter to see what she could discover!3. Leave out the materials for further investigation. Lucy is still very interested in exploring reflections in mirrors. (She told me she’s still coming up with other mirror experiments!) I’ve left the mirrors out for her to access easily so she can use them at any time. I may add some wooden letters or printed words nearby soon to help inspire more discoveries. Some Materials for Mirror ExplorationWant to Go Even Further?Related activities to extend the learning for various ages. Go on a family walk outdoors to look for.
Flash Mirror Colors
Explore mirrors with paint:,. Explore mirrors with various materials:,. Record all your discoveries in a science journal. Experiment with reflections in other surfaces like a spoon. Make a periscope: and have some tutorials.
Related children’s books:.
Who would have thought you could make a game out of an optical bench? Chris Mitchell did, and while we were skeptical at first, his has some potential. Just watch your eyes.The premise is simple: direct the beam of a colored laser to the correct target before time runs out. Chris used laser-cut acrylic for his playfield, which has nine square cutouts arranged in a grid. Red, green, and blue laser pointers line the bottom of the grid, with photosensors and RGB LEDs lining the grid on the other three sides.
Mirrors Laser Flash Game 2
Play starts with a random LED lighting up in one of the three colors, acting as a target. The corresponding color laser comes on, and the player has to insert mirrors or pass-through blocks in the grid to create a path to the target. The faster you hit the CdS cell, the higher your score. It’s simple, but it looks really engaging. We can imagine all sorts of upgrades, like lighting up two different targets at once, or adding a beamsplitter block to hit two targets with the same color. Filters and polarizers could add to the optical fun too.We like builds that are just for fun, especially when they’re well-crafted and have a slight air of danger.
We featured recently comes to mind.Posted in, Tagged, Post navigation. Thanks Frans:)It was a really fun project!There are 2 different player pieces, a mirror and a blank.The mirror piece is clear acrylic with a 12x3mm hole cut at 45 degrees and a 12x15mm acrylic (3mm) mirror epoxied in.The blank is just a straight piece of clear acrylic to convey the light since light likes to expand.Those blanks aren’t always needed depending on how long the beam path is so it can be tricky keeping up with it in game play.A beam splitter in this case could just be some acrylic 2 way mirror instead of the regular mirror. It’s about 10x more expensive than normal acrylic but since i have some off-cuts on hand from my next project i might give it a go:)And yes i combined the red, green & blue beams to make white, and while it did work i swear i still have spot in my vision (super bright, not recommended).